RU2009112067A - METHOD OF HEAT AND HOT WATER SUPPLY AND VACUUM DEAERATION SYSTEM OF WATER USED IN IT - Google Patents

Abstract

 1. A method of heat or hot water supply, comprising supplying heated source water to a vacuum deaeration system of water, deaerating water in it using a vacuum deaerator, accumulating deaerated water and supplying accumulated deaerated water to a consumer while maintaining a stable deaeration mode by using a formed deaerated reserve water to compensate for the destabilizing variable flow rate of the consumed deaerated water, characterized in that the formation of the specified compensation of the deaerated water reserve is produced by continuous and forced removal of part of the deaerated water stream at the outlet of the vacuum deaerator and its combination with the source water stream at the inlet of the vacuum deaerator, and the use of the deaerated water reserve thus formed to compensate for the destabilizing variable flow rate of the consumed deaerated water is carried out based on a combination of two simultaneous automated controls: flow continuously and forcibly diverted to the vacuum inlet eaeratora part of the flow rate of deaerated water and applied to the input of the vacuum deaerator untreated water according to the flow of deaerated water consumption, while ensuring a constant in time combined water flow at the inlet and outlet of the vacuum deaerator. ! 2. The method according to claim 1, characterized in that the dual simultaneous automated control specified in claim 1 is carried out provided that the maximum flow rate of the discharged deaerated water exceeds the maximum flow rate of the consumed deaerated water or their

Claims (4)

1. A method of heat or hot water supply, comprising supplying heated source water to a vacuum deaeration system of water, deaerating water in it using a vacuum deaerator, accumulating deaerated water and supplying accumulated deaerated water to a consumer while maintaining a stable deaeration mode by using a formed deaerated reserve water to compensate for the destabilizing variable flow rate of the consumed deaerated water, characterized in that the formation of the specified compensation of the deaerated water reserve is produced by continuous and forced removal of part of the deaerated water stream at the outlet of the vacuum deaerator and its combination with the source water stream at the inlet of the vacuum deaerator, and the use of the deaerated water reserve thus formed to compensate for the destabilizing variable flow rate of the consumed deaerated water is carried out based on a combination of two simultaneous automated controls: flow continuously and forcibly diverted to the vacuum inlet eaeratora part of the flow rate of deaerated water and applied to the input of the vacuum deaerator untreated water according to the flow of deaerated water consumption, while ensuring a constant in time combined water flow at the inlet and outlet of the vacuum deaerator. 2. The method according to claim 1, characterized in that the double simultaneous automated control specified in claim 1 is carried out provided that the maximum flow rate of the discharged deaerated water exceeds the maximum flow rate of the consumed deaerated water or their equality. 3. A system for vacuum deaeration of water, comprising a pipeline section for the forced supply of heated source water, having an automatic control valve integrated in its pipeline and connected to the inlet of the vacuum deaerator, which is connected by its outlet using the pipeline section of the outlet of deaerated hot water to the tank inlet for accumulating deaerated hot water equipped with a water level sensor associated with the said automatic control valve, and having access to the pipeline section ok consumption of deaerated hot water, characterized in that the pipeline section of the continuous drainage of deaerated water is additionally introduced into the system with a pump built into its pipe having an automatic regulator of the latter’s capacity connected with a water flow sensor at the inlet of the vacuum deaerator, said pipeline section of the continuous drainage of deaerated of water connects the outlet of the vacuum deaerator with an insert into the pipeline of the forced supply of heated source water to the There is a gap between its automatic control valve and the water flow sensor at the inlet of the vacuum deaerator. 4. The system according to claim 3, characterized in that the tank for accumulating deaerated hot water is made in the form of a measured tank with a reduced volume.